Biomedical Science
Bachelor of Science (Honours)
Sonraí an Chúrsa
Cód CAO | AU969 |
---|---|
Céim | 8 |
Fad ama | 4 Years |
Pointí CAO | 351 (2024) |
Modh Seachadta | On-campus |
Suímh campais | Sligo |
Modh Seachadta | Lánaimseartha |
Socrúchán oibre | Tá |
Forbhreathnú Cúrsa
Biomedical Science is the study and application of biological systems for diagnostic and therapeutic purposes. Did you ever wonder how diseases are diagnosed in hospital labs or where insulin comes from that diabetics use? Did you know that many modern day drugs for the likes of cancer and rheumatoid arthritis are produced using biological systems? Biomedical Science is a revolutionary industry that has had a major impact on the production of drugs, hormones and diagnostics over the last twenty years.
exports jumped to almost €9bn in January 2024, up 48% from the same time in 2023. This industry accounted for 47.5% of all Irish exports across the month. With 90+ biopharma companies operating in Ireland, the demand for skilled graduates is at an all-time high.
Overview
This degree gives students access to the latest industry innovations and advancements, teaching them skills needed to gain employment in the biotechnology, biopharmaceutical, diagnostics and medical device industries in Ireland and abroad.
Innovative teaching methods are used on the programme, including the use of social networking, game-based learning, industrial workshops and visits to target industries and employers. We also recognise the importance of transferable skills such as data presentation, information-sourcing and scientific-technical writing which enhances employability, and expands students knowldege and understanding of the sector.
Year 1
Year 1 focuses on developing student’s core scientific skills and building a foundation of knowledge in biology, chemistry, physics and mathematics. Students are also introduced to the basics of medical biotechnology and its uses.
Year 2
Students’ knowledge and technical skills in the biological field are developed as the programme progresses and they are introduced to areas such as molecular biology, microbiology and medical devices.
Year 3
Students study cell culture and the medical device industry. There is also a work placement in either an industrial or a research setting at the end of Year 3.
Year 4
In Year 4, focus moves to the biopharmaceutical industry and its role today. Students also complete a research project on a specific area of interest.
Work Placement
There is a work placement available in the summer of Year 3 in an industrial or research setting.
National Institute For Bioprocessing And Training (NIBRT)
In Year 4, students gain training experience at the National Institute for Bioprocessing Research and Training (NIBRT) in Blackrock in Dublin. This is an expert training centre for Biopharmaceutical Companies in Ireland and worldwide. Students undertake a training course that gives hands-on experience of what it’s like to work in a Biopharmaceutical facility, enhancing their employability with pharmaceutical companies.
Common Entry
AU966 BSc (Hons) in Environmental Science with Ecology
AU967 BSc (Hons) in Occupational Safety and Health
AU969 BSc (Hons) in Biomedical Science
AU968 BSc (Hons) in Pharmaceutical Science with Drug Development
Sonraí an Chúrsa
Bliain 1
Seimeastar | Sonraí an Mhodúil | Creidmheasanna | Éigeantach / Roghnach |
---|---|---|---|
1 |
Biology 1The module aims to introduce learners to the structure and function of the major biological macromolecules of the cell. The module also introduces learners to the structure and functions of eukaryotic and prokaryotic cells. Torthaí Foghlama 1. Describe the structures and functions of the eukaryotic cells andcell organelles. 2. Describe the structures and functions of the prokaryotic cells 3. Illustrate how cellsdivide. 4. Describe the structure and function of biological macromolecules |
05 | Mandatory |
1 |
Chemistry 1This module introduces students to general fundamentals of chemistry, including atomic theory, bonding, solution concentration, pH, stoichiometry, oxidation and reduction. Torthaí Foghlama 1. Use the periodic table to define and describe the structure of atoms, ions and molecules. |
05 | Mandatory |
1 |
Physics 1This is an introductory Physics course relevant to all fields of Science. The principal topics include mechanics, materials and heat and consist of lab investigations in these areas. Torthaí Foghlama 1. Explain physical laws and definitions of Mechanics, Materials,and Heat.. |
05 | Mandatory |
1 |
Mathematics for Science 1In this module, the fundamentals of mathematics required for a Science qualification are covered. All effort in this semester is focused on the student's need to understand and practice basic mathematical processes and their application to real life and science. Students are supported in their efforts by a comprehensive VLE site containing videos, notes and quizzes relevant to each topic. There are supervised tutorials twice a week to help solve the problems encountered in the module. Torthaí Foghlama 1. Perform calculations involving basic operations without a calculator. 2. Use powers and scientific notationto express values and evaluate expressions. 3. Perform unit conversions and simple pharmaceutical calculations 4. Manipulate and solve mathematical expressions correctly. 5. Plot and analyse linear, quadraticand simultaneous equations. |
05 | Mandatory |
1 |
Information Technology 1This module deals with the practical applications of Information Technology. It serves as an introduction to the computer systems the student will use while taking their chosen course in the college. It also covers the fundamental skills of word processing, presentation and spreadsheet software. The teaching methods used will be a combination of lectures, self-study, labs, tutorials, problem-solving exercises and computer-based learning. Torthaí Foghlama 1. Use the IT infrastructureand Virtual Learning Environment to perform standard IT tasks to assist in their future studies 2. Identify the main component parts and peripheral devices of a standard computer system. |
05 | Mandatory |
1 |
Essential Skills for ScientistsThe aim of this module is to introduce the students to essential skills required by scientists in the 21st century, as well as equip undergraduates with the strategies to cope with the style of learning and enquiry required for success in higher education. A strong emphasis will be placed on the transferable skills that are highly valued by employers. In particular, the module will focus on metacognition and the development of academic writing, communication and interpersonal competencies. The module aims to motivate students to take responsibility for their own learning through self-driven enquiry, provide them with the skills for a lifetime of independent and reflective learning and ultimately better prepare them for employment and the career ladder. Torthaí Foghlama 1. Analyse time management skills and manage time effectively with regard to planning and organising tasks. 2. Communicate scientific knowledge to a variety of audiences. 3. Understand the principals of scientific reporting, recognise the importance of academic integrity and identify ways of avoiding plagiarism in academic work through appropriate referencing. 4. Demonstrate an ability to work professionally as an individual or as a member of a team. 5. Recognise different learning styles, identify personal strengths and weaknesses as a learner and apply appropriate learning strategies to develop study skills. |
05 | Mandatory |
2 |
Biology 2The module also introduces the structure and functions of the different organ systems of the body. Torthaí Foghlama 1. Describe the structure and function of therespiratory and excretory systems 5. Perform and report on, biological laboratory experiments and communicate information accurately and effectively using written, visual and numeral forms |
05 | Mandatory |
2 |
Chemistry 2This module introduces student to fundamentals of Organic Chemistry and Physical Chemistry. Torthaí Foghlama 1. Describe the structural characteristics of the various homologous series and functional groups. |
05 | Mandatory |
2 |
Physics 2This is an introductory Physics course relevant to all fields of Science. The principal topics include waves, sound, electricity, magnetism, light & optics and nuclear physics and consist of lab investigations in these areas. Torthaí Foghlama 1. Explain physical laws and definitions of waves, sound, electricity, magnetism, light & optics and nuclear physics. |
05 | Mandatory |
2 |
Mathematics for Science 2This module introduces the functions which occur most commonly in science and ways of examining their behaviour. The primary focus is to understand where these functions occur, both in real life and science, and to provide students with the ability to recognise and analyse them appropriately. The module also introduces statistical methods and analysis. Torthaí Foghlama 1. Analyse and sketch polynomial functions of a linear, quadratic and cubic nature. Discuss real world applications of these functions 2. Analyse and sketchfunctions of a sinusoidal and rational nature. Discuss real world applications of these functions 3. Analyse and sketchfunctions of alogarithmic and exponentialnature. Discuss real world applications of these functions 4. Use differential Calculus toanalyse max/min curves and solve optimisation problems. 5. Identify different types of data and use appropriate tables and curves to analyse data sets. |
05 | Mandatory |
2 |
Information Technology 2This module deals with advanced practical applications of Information Technology. It covers the software packages for spreadsheets, desktop publishing, electronic notebooks and data management. The teaching methods used will be a combination of lectures, self-study, labs, tutorials, and any combination of discussion, case study, problem-solving exercises and computer-based learning. Torthaí Foghlama 1. Model problems using advanced features of Excel and build on concepts learned in Information Technology 1 3. Create brochures and information leaflets using an appropriate software 4. Use online cloud tools and other software packages for data management and collaboration. |
05 | Mandatory |
2 |
Introduction to Medical BiotechnologyIn this module the student will develop an overview of the broad field of Medical Biotechnology and will explore many of the various areas that contribute to this discipline. The module will include a brief history of Medical Biotechnology, including some key breakthrough moments in history. Furthermore the module will cover current key technological areas of scientific, economic and social interest and as well as targeted technologies of the future. Torthaí Foghlama 1. Understand the fundamentals of how breakthroughs and advances inMedical Biotechnology happen 2. Understandthe history and development of the Biotechnology industry. |
05 | Mandatory |
Bliain 2
Seimeastar | Sonraí an Mhodúil | Creidmheasanna | Éigeantach / Roghnach |
---|---|---|---|
1 |
Biomaterials and Medical DevicesThis is an introductory module covering concepts in Materials Science and Materials Engineering that may be of relevance to biomedical science and medical biotechnology. The content is framed in the context of the selection and suitability of materials used in biomedicine and in medical devices. Torthaí Foghlama 1. Define basic concepts and explain general principles of materials science. 2. Describe, discuss and use examples of how the structure of materials influences the properties and performance of materials and apply knowledge of basic material science to identify material properties that are critical for metallic, polymer and ceramic biomaterials, or their combination. 4. Report the performance of a materials science experiment and/or test in a prescribed manner, presenting results, processing and interpreting data, and deducing informed conclusions. |
05 | Mandatory |
1 |
Analytical TechniquesThe course introduces the student to the basic elements of chemical analysis from sample preparation to the collection and statistical evaluation of analytical data. The course deals with aspects of volumetric analysis including the application of primary and secondary standards. The course also provides both a theoretical and practical introduction to several instrumental analysis techniques including infrared spectroscopy, ultraviolet -visible spectroscopy, atomic absorption, liquid and gas chromatography. Torthaí Foghlama 1. Define basic analyticaltheory and standard/sample preparation. 2. Demonstrate an understanding of the underlying concepts and principles of a range of instrumental and classical methods of analysis. 3. Demonstrate competence in the practical application ofselected instrumental and classicalmethods of analysis. 4. Calculate chemical compositions from raw analytical data in a variety of units and evaluate the reliability of analytical data using simple statistical and quality control techniques. |
05 | Mandatory |
1 |
BioethicsIn this module the student will explore ethical issues in modern medical biotechnology. Students will study the challenging questions that arise at the intersection of medicine, genetic engineering, technology and ethics. The module will introduce the ethical principals and theories which inform, guide and justify best practise in biomedical research. Students will employ moral reasoning to identify potential ethical issues in 'real life' scenarios. They will deepen their understanding of the ethical issues underpinning modern medical biotechnology. The module will provide knowledge on the regulatory frameworks and governance of research ethics. Students will cultivate strategies for dealing with likely challenges and issues they could face when studying or working in medical biotechnology and biomedical science. Torthaí Foghlama 1. Demonstrate knowledge and understanding of ethical issues in medical biotechnology. 5. Interpret existing frameworks in Ireland and the EU regulating medical biotechnologies. |
05 | Mandatory |
1 |
MicrobiologyThe aim of this module is to introduce the student to both the theoretical and practical aspects of basic microbiological techniques required to safely handle, investigate and manipulate micro-organisms in laboratory setting. Students will be provided with the opportunity to acquire knowledge of the subject matter through a variety of lecturer led activities and self-directed study. Such activities will include traditional and interactive lectures, problem solving and revision tutorials and laboratory practical classes. Theoretical and practical problems will be employed to assist students in the development of their analytical and problem solving capabilities. Torthaí Foghlama 1. Understand that microorganisms comprise a diverse range of organisms that includes bacteria, fungi, protozoans, algae, viruses and sub-viral particles. |
05 | Mandatory |
1 |
Biochemistry 1The module aims to illustrate to learners the structure and function of macromolecules of the cell and how they integrate into cellular function. Torthaí Foghlama 1. Explain the function of macromolecules in the cell. 2. Describe mammalian cellular energetics. 4. Outline the organisation of nucleic acids in the cell. 6. Relate some applications of molecular biology. 7. Perform and report on, biochemical laboratory experiments and communicate information accurately and effectively using written, visual and numeral forms. |
10 | Mandatory |
2 |
Medical PharmacologyThis module is designed to introduce medical pharmacology to students who are pursuing degrees in scientific fields. Topics will include the basic principles of pharmacology and several major classes of therapeutic agents, with attention to their mechanisms of action by which drugs act and relates these to their overall pharmacological effects and clinical uses. Torthaí Foghlama 1. Gain a thorough understanding of Pharmacodynamics, the basic principles underlying drug action in the mammalian body and the Pharmacokinetics effect of the body on the drug molecule. |
05 | Mandatory |
2 |
Medical ImmunologyThe course introduces students to the immune system as an innate and adaptive defence system that recognises invading pathogenic organisms and mounts a response to eliminate or neutralise foreign infectious agents. Students will be introduced to the molecules, the cells and organs, and the processes involved in host defence against infection. An overview of basic principles, concepts, and techniques used to assess immune status will be presented. Torthaí Foghlama 1. Be familiar with the human immune system, including both cell-mediated and humoral responses. |
05 | Mandatory |
2 |
Mathematics for Science 3Further development of mathematical techniques necessary for scientists Torthaí Foghlama 1. Use the laws of logarithms to solve complex equations, analyse exponential data and plots 2. Useexponents to perform population analysis and determine thehalf life and cell doubling times of natural growth and decay. 3. Perform probability calculations of single and multiple events and usenormal distribution to determine biological probabilities. 4. Perform calculations with simple matrices, solve systems of simultaneous equations using matrix methods. 5. Evaluate integral calculus problems and determine the area under various curves |
05 | Mandatory |
2 |
Molecular BiologyThe aim of this module is to provide students with an understanding of the basic principles underpinning molecular biology. The module will introduce students to DNA and RNA structure, DNA replication, transcription and translation. Students will explore practical applications of molecular biology, some of which will include Agarose Gel Electrophoresis, Nucleic Acid Extraction, PCR, Cloning and Restriction Digestion. This module will also introduce students to the analysis and manipulation of nucleic acids and plasmid DNA. Torthaí Foghlama 1. Compare and contrast nucleic acid structures and describe some techniques used in their analysis. 2. Describe the mechanism of DNA replication. 3. Elucidate the processes involved in gene expression and regulation. 4. Summarise the main steps in the Polymerase Chain Reaction. 5. Appreciate the complexity of gene cloning and depict the key steps in the process. 6. Interpret and analyse bioinformaticdata. 7. Perform key molecular biology techniques in a laboratory setting. 8. Analyse, collate and report on experimental data generated in practical sessions. |
10 | Mandatory |
2 |
Process MicrobiologyThe aim of this module is to introduce the student to both the theory and practical aspects of microbiology related to the production of a range of biomedical products, including pharmaceuticals, medical devices and immunodiagnostic materials. Students will be provided with the opportunity to acquire knowledge of the subject matter through a variety of lecturer led activities and self-directed study. Such activities will include traditional and interactive lectures, problem solving and revision tutorials and laboratory practical classes. Theoretical and practical problems will be employed to assist students in the development of their analytical and problem solving capabilities. Torthaí Foghlama 1. Understand microbial ecology and its relationship to biomedical products manufacture. |
05 | Mandatory |
Bliain 3
Seimeastar | Sonraí an Mhodúil | Creidmheasanna | Éigeantach / Roghnach |
---|---|---|---|
1 |
Statistics for ScientistsThis course is designed to provide an introduction to a range of statistical tools of relevance to scientists. Specific topics include an overview of statistical distributions, significance testing, uncertainty determination, linear regression and experimental design. The application of statistics for quality control and practical experience in the application of statistical features in the widely available Microsoft Excel is particularly emphasised. The teaching methods used will be a combination of lectures, self-study, labs, tutorials, and any combination of discussion, case study, problem-solving exercises and computer-based learning. Torthaí Foghlama 1. Describe basic statistical terms which are of relevance to the area of analytical science. 2. Graphically display and numerically summarise data using appropriatetables, graphs and measures of centre, spread and position. 3. Explain and apply concepts of basic probability including, conditional probability, Bayes’ theorem, independent events and counting formulae; 4. Make interferences about population parameters using sample statistics using confidence interval estimates and tests of statisticalhypotheses 5. Describe the application of statistics tosampling, quality control, analytical method validation andexperimental design. 6. Use an appropriate method for analysingrelationships between variables in a dataset |
05 | Mandatory |
1 |
Research Development and Communication for Biomedical ScienceLearners will acquire a knowledge and understanding of the research environment and methods of dissemination and communication in academia and industry. This will include: research development; design; literature searches; peer review and scientific communication through written and oral media. Upon module completion students will be equipped with the core principles of basic research methodology design and implementation. Students will also learn of the regulatory bodies whose remit includes the licensing and regulation of research and biomedical product development and will be able to disseminate information accurately and appropriately. Torthaí Foghlama 1. Communicate with scientific peers effectively through written and oral media 4. Design logical and defensible basic research strategies and appropriate data collection regimes 6. Know the basics of the rules and regulations governing research |
05 | Mandatory |
1 |
Medical Device TechnologiesThis course aims to provide the student with a broad understanding of the various medical devices available for the treatment and prevention of diseases, their control and regulation and their modes and methods of manufacturing and finishing. It also aims to provide an overview of the medical device industry both globally as well as nationally, ethical issues and the role the industry plays in society. Torthaí Foghlama 1. Demonstrate a knowledge and understanding of the medical device industry, the principal companies involved and the main product types being manufactured, evaluate ethical questions and societal impact of the industry. 2. Explain the various principles and practices involved in the control and regulation of the medical device industry both in Europe and the USA. 4. Describe the support activities involved in medical device manufacturing, such as sterilization, labelling and packaging. 5. Communicate and critique scientific data relating to medical device manufacturing and evaluate current trends and future research areas. |
05 | Mandatory |
1 |
Protein BiotechnologyThis module aims to study the structure and function of proteins in greater depth than the basics covered in a Biochemistry module. Protein primary, secondary, tertiary and quaternary structure will be examined using non traditional methods.There is a heavy emphasis on using bioinformatics and data mining technologies to gain an understanding of protein design and genetic manipulation. Torthaí Foghlama 1. List and explain the major bond types which accompany peptide and protein formation and understand what conditions need to be maintained to preserve their structure. 2. Illustrate and distinguish between the main secondary, tertiary and quaternary structures which are formed during protein synthesis and also the role and significance of post translational modifications. 3. Examine the key functions of proteins in cells and tissues and the characterize the role of proteins in human disease. 5. Demonstrate an ability to write industry standard reports with particular emphasis on effective referencing and prioritisiation/selection of relevant material. |
05 | Mandatory |
1 |
Animal Cell CultureThe animal cell culture module introduces the basic concepts and issues pertaining to the culture of animal cells. The module begins with a historical and applications-driven view of the topic and the types of cells which are cultured in vitro. The module outlines the growth requirements of cells in culture including the various media which may be used and how cells are grown and stored by cryopreservation. Issues relating to chemical and biological contaminations which may impact on cell culture are described. The regulations pertaining to genetically modified organisms which are pertinent to the biopharmaceutical industry are discussed. The module includes a comprehensive laboratory element introducing basic cell culture preparation, growth, storage and analysis of cell culture. Torthaí Foghlama 1. Explain, using appropriate technical terminology, what is meant by animal cell cultureand outline the key applications. 2. Describe the growth requirements and characteristics of cells in culture. 3. Outline the various growth platforms which may be used in cell culture. 4. Explain, illustrate and/or demonstratehow to establish, passage, freeze, recover and maintain selected cell lines. 5. Recognise and evaluate the QC issues and GMP requirements pertinent to cell culture laboratories. 6. Evaluate contamination and biosafety issues. 7. Execute laboratory protocols which are used in routine animal cell culture. 8. Analyse and report experimental concepts and data. |
10 | Mandatory |
2 |
Biopharmaceutical Facilities and UtilitiesThis module aims to provide the student with a broad understanding of the main support service areas involving both facilities and utilities that underpin the modern biopharmaceutical manufacturing industry. Torthaí Foghlama 1. Outline the main elements and features of facilities and utilities relating to the modern biopharmaceutical industry. 3. Describe the key elements of a water treatment system for Biopharmaceutical Processing. |
05 | Mandatory |
2 |
ImmunodiagnosticsThe immunodiagnostics module introduces students to the application of antibodies for the purpose of diagnosis. The structures of antibodies and antigens are introduced and the different classifications of antibodies (such as mono- or polyclonal) and their relevance are discussed. Tissue type and sampling in immunodiagnostic testing is outlined along with antibody conjugation, types of output, signal detection, dynamic range and signal amplification. Antibody validation is addressed in relation to titering, specificity and sensitivity issues for testing. Common applications, assay types and future applications are also discussed. Torthaí Foghlama 1. Defineimmunodiagnostics and relate the structure, biochemistry and production of Immunoglobulins and antigens to testing. 2. Describe the methods of antibody conjugation, signal outputs,signal amplification and patient sampling commonly used in immunodiagnostictesting. 3. Recognise and evaluate the QC issues pertinent to immunodiagnostic techniques and the interplay between dynamic range, sensitivity and specificity. 4. Identify applications ofimmunodiagnostics and detail current and future applications. 5. Demonstrate key immunodiagnosticconcepts and execute common laboratory assays, which are used in immunodiagnostics. 6. Analyse and report experimental concepts and data. |
05 | Mandatory |
2 |
Advanced Therapy Medicinal Products (ATMPs)This module is an introduction to the interdisciplinary field of advanced therapy medicinal products (ATMPs), which encompasses tissue engineering, and cell and gene based therapies. The latter are rapidly emerging as therapeutic approaches to treating disease / diseased tissues and genetic disorders in the biotechnology industry. This course will introduce advances in the fields of cell biology, material science, cell based medicine and gene based medicine and their relationship towards developing novel therapies. Torthaí Foghlama 1. Explain the fundamental principles in developing cell, gene and tissue engineered therapies. 2. Define the principal applications of advanced therapy medicinal products (ATMPs). 3. Analyse, evaluate and draw conclusions from data obtained in problem solving exercises. |
05 | Mandatory |
2 |
Implant BiocompatibilityThis subject is designed to introduce the students to compatibility issues which arise from the use of implants and medical devices. The subject emphasises the properties of biomaterials which may result in incompatibility within the recipient. The subject studies the implant host interface and the role this plays in determining biocompatibility. The module defines and describes the major adverse host responses to implanted biomaterials and how they may be controlled. The module also encompasses biomaterial testing in theory and practical elements. The importance of sterility and product standards and regulations is also addressed. Torthaí Foghlama 1. Outline materials used in implant devices and how they impact on biocompatibility. 2. Describe the environmental and biological responses to implanted devices. 3. Provide an overview of the importance of sterilization, regulation and standards to the medical device industry. 4. Outline the testing of implants for biocompatibility. 5. Execute laboratory assays which are used to determine biocompatibility. 6. Analyse and report experimental concepts and data. |
05 | Mandatory |
2 |
Legislation, Quality & Auditing SystemsThis module introduces EMA/EU/Irish legislation for medicinal products. It also introduces Eudralex Volume 4, ICH, GMP, Auditing, relevant to the Pharma/Biomedical and Medical Device industry. Torthaí Foghlama 1. Demonstrate a detailed knowledge and understanding of the main US and EU institutions, legal instruments, ICH process and workings of EMA in relation to medicinal products. 2. Integrate knowledge and understanding of Common Technical Document (CTD), variations procedures and Clinical Trial Legislation to evaluate relevant case studies. 3. Source and evaluate guidance procedures and directives currently regulating good manufacturing practices (GMP). 4. Demonstrate knowledge of the ICH Q9 and Q10 guidance documents as relating to QRM and PQMS for a licensed production facility. 5. Interpret and understand the relevance of auditing as a means of monitoring the production of safe and efficacious pharmaceutical and medical device products in a GMP environment. 6. Source, interpret and apply GMP principles to different case scenarios and identify potential issues that would result in implementation of Corrective and Preventative Actions. |
05 | Mandatory |
2 |
Microbial BiotechnologyThe aim of this module is to review current knowledge, underpinning principals and recurrent themes in microbial biotechnology. Microorganisms are fundamental to many industrial processes and students studying this module will gain an understanding of the use of bacteria, yeast, fungi and algae in the production of valuable commodities. The module describes the use of microorganisms in biotechnology, the application of microbial enzymes in industry, the use of recombinant DNA in the production of products, fermentation processes, and downstream processing. Torthaí Foghlama 1. Evaluate the potential for microbial cells in biotechnology. 2. Review the molecular methodologies for engineering microbes for use in thebiotechnology industry. 3. Compare and contrast industrial fermentations. 4. Discussthe fundamental characteristics of various downstream processes used in the purification of biotechnological products. 5. Demonstrate proficiency in the performance of a variety of relevant laboratory techniques.Analyse, collate and report on experimental data generated in practical sessions. |
05 | Mandatory |
Bliain 4
Seimeastar | Sonraí an Mhodúil | Creidmheasanna | Éigeantach / Roghnach |
---|---|---|---|
1 |
Recombinant Cell EngineeringThe objective of this module is to introduce students to the recombinant drug discovery and development process. This module encompasses key steps in recombinant cell engineering and production including vector design and manipulation, gene delivery and expression, model system choice and expression detection. The module will further investigate approaches to enhancing recombinant protein expression and functionality. Concepts and methodologies uniquely associated with recombinant antibodies will be addressed. The module will also introduce gene-editing technologies and their role in future therapeutics. Torthaí Foghlama 1. Align the concept of rational drug design with recombinant protein production and identify the key tools required in the process. 2. Assess the essential steps in the design, cloning and control of a recombinant expression systems. 3. Describe methods employed to optimise nucleic acid sequences and cell expression systems for optimum protein expression. 4. Examine methods of verifying the function and expression recombinant genes and gene products and verify the role of the gene/drug target in the disease process. 5. Plan, design and execute laboratory protocols which are used to develop genetically modified cells. 6. Analyse and report experimental concepts and data. |
05 | Mandatory |
1 |
Medical DiagnosticsMedical diagnostics module is concerned with the use of molecular biomarkers for the detection, diagnosis, prognosis and treatment of disease. Current biomarkers and technologies are discussed and new high-throughput methods and approaches for identification of new markers are described, some of these include microarray analysis, metabolomics and epigenetics. The module discusses the importance of these biomarkers in terms of survival, prognosis and personalised healthcare. The module introduces the concept and role of point of care testing in a modern healthcare environment. Torthaí Foghlama 1. Examine current examples of biomarker use in diagnostics. 2. Describe array-based, metabolomic and epigenetic methodologies for identification of biomarkers. 3. Appraise clinical data used for the analysis and discovery of disease markers and their application in clinical tests. 4. Illustrate the use of biosensors in the point of care analysis and monitoring of disease. 5. Execute experiments and methods used to identify molecular targets. 6. Analyse and present experimental data relating to biomarker discovery. |
05 | Mandatory |
1 |
Industrial Placement and Case StudiesThis course will provide the student with a broad knowledge, understanding and appreciation of the principal features and aspects of a modern biomedical manufacturing or services related environment. Torthaí Foghlama 1. Outlinehow a modern biopharmaceutical/biomedical/med tech manufacturing industryoperates,and demonstrate understanding ofthe regulatory requirements of these industries. 2. Adapt and apply knowledge and skills acquired in the educational environment to the industrial, services or other scientific related work environment. 4. Propose and defend solutions to real/simulated complexworkplace problems. |
05 | Mandatory |
1 |
Cell Culture ProcessingThis module aims to provide the student with a broad understanding of both the theory and practical aspects of cell culture processing as it pertains to the biosynthesis of modern biopharmaceutical products. It will deal with the processing flow from cell vial thaw and subsequent scale-up through to protein synthesis and product capture. Torthaí Foghlama 1. Describe the basics of cell biology and the process kinetics relating to cell growth and productivity for a bioreactor process. 7. Perform a cell / proteinharvesting steputilisingeither filtration orchromatography technologies. 8. Report written laboratory work to an industry standard, including data interpretation and statistical analysis. |
10 | Mandatory |
2 |
Protein PurificationThis course aims to provide the student with a broad understanding of the main theory and practical aspects of protein purification (downstream processing) from product capture at the end of the cell culture process through the various stages of protein separation and purification including viral elimination. Torthaí Foghlama 1. Outline the main elements of an effective and efficientdownstream process designfor protein capture and purification application from DPC (direct product capture) to BDS (bulk drug substance). 2. Describe the general theory and main principlesof chromatography technology for protein purification applications. 3. Perform a protein capture step utilising ion exchange chromatographyinvolving a suitablematrix resin. 4. Outline and differentiate between the different types of chromatography systems in use for protein purification purposes. |
10 | Mandatory |
2 |
Biopharmaceutical ValidationThis course aims to provide the student with a broad understanding of the various aspects of process and support systems validation for the manufacturing of modern biopharmaceuticals. It will highlight and evaluate the various risks inherent in bioprocessing and how the application of effective validation methodologies assists in the control and management of such risks. Torthaí Foghlama 1. Describe the key elements in a systematic approach to validation with particular emphasis on their application to bioprocessing. 2. Understand and apply thekey elements of equipment qualification and analytical test method validation. 3. Categorisethe principal risks associated with the manufacture of modern biopharmaceuticals and tools to evaluate them 4. Evaluate the main steps involved in the process validation of upstream (cell culture processing) and downstream (protein purification) processes. 5. Explain the validation approaches for cleaning, sterilisation andviral control technologies in the manufacture of biopharmaceuticals. 6. Communicate and explain scientific data relating to biopharmaceutical validation. |
05 | Mandatory |
2 |
Analytical Testing of BiopharmaceuticalsThis course is designed to provide specialised knowledge in the theory, practice and interpretation of the various assays and instrumentation routinely employed in a routine biologics quality control (QC) testing laboratory. This course guides students through the core analytical methods and platforms routinely employed in a QC testing laboratory. The necessary skills and competencies will be acquired through a combination of lectures, hands‑on practical training and demonstrations plus self‑study. The course will cover methods such as spectroscopic, chromatographic, electrophoretic and mass spectrometric approaches for the analysis of biological drugs plus new and emerging technologies as they arise. Torthaí Foghlama 1. Outline and evaluate the main QC test methods and bioanalytical instrumentation routinely employed in the analysis of biologics by sourcing and interpreting the theory behind the methods. 2. Perform a range of analysis and interpret and critically evaluate the data obtained from practicals and demonstrations and solve/troubleshoot analytical problems. 3. Develop professional practice skills includingscientific writing report writingand oral communication skills. |
05 | Mandatory |
2 |
Formulation and Delivery Systems of BiopharmaceuticalsThe aim of this module is to provide students with an understanding of the main considerations in the formulation of a biopharmaceutical drug. The module will introduce students to the challenges encountered in the formulation of biopharmaceutical products. They will gain an understanding of the key steps in preformulation, formulation, lyophilisation and fill-finish operations. This module will also address current and emerging drug delivery systems for therapeutic peptides, proteins and nucleic acid based drugs. Torthaí Foghlama 1. Formulate and communicate judgements with regard to challenges encounteredin the formulation of biopharmaceuticals. 2. Describe the fundamental objectives of preformulation. 3. Evaluate the use of different excipients in formulation, and outline the primary stages of sterile fill-finish operations. 4. Explain the principles and applications of freeze-drying technology. |
05 | Mandatory |
2 |
Medical Biotechnology ProjectThe aim of this module is to develop the student's ability to independently apply the knowledge, skills and competences they have acquired in the course, in the planning and completion of a final year project. The project may be team based including team skills or the course of study may be on an individual platform. Torthaí Foghlama 1. Have the ability to plan and organise activities within the time frame of the project. |
10 | Mandatory |
Dul chun cinn
Graduates can pursue an MSc in Bioprocessing in ATU Sligo. This can be studied fulltime or online.
Graduates can also pursue a range of Level 9 Masters of Science or Level 10 PhD doctorates in research at ATU Sligo or in other higher education institutions.
Download a prospectus
Riachtanais Iontrála
Leaving Certificate Entry Requirement | 6 subjects at O6/H7 2 subjects at H5 English or Irish at O6/H7 Maths at O6/H7 or Foundation Maths at F2 |
QQI/FET Major Award Required | Any |
Additional QQI/FET Requirements | Three distinctions and a pass in C20139 or 5N1833 or C20174 or C20175 or 5N18396 or 5N0556 or Leaving Certificate Maths at 06/H7/F2 |
Testimonial
“My favourite module was Immunodiagnostics. What was covered in class was covered again in the labs. It was so interesting learning about antibodies, antigens and the application of immunodiagnostics. In this subject, my lab skills were put to the test as the quantities of these reagents were very small so there was a high degree of accuracy and attention to detail needed. I also developed skills such as communication, teamwork and technical writing. These are skills employers want.
I completed my work placement in the summer of Year 3. I was lucky enough to be kept on part-time during my final year of study. When I finished the degree in May of 2019, I worked full-time with the company I am currently working for. I have been upskilled since the beginning of my employment, by completing the IQC Lead Auditor Course in ISO 13485. I have worked my way up to my current role as a Quality Engineer. My job is very broad and I am lucky enough to work with medical device companies manufacturing products of Class I to Class III, and also working with diagnostic companies developing markers for cancer.”
Savannah Moriarty , Biomedical Science graduate and now employed as a Quality Engineer
Táillí
Total Fees EU: €3000
This annual student contribution charge is subject to change by Government. Additional tuition fees may apply. Click on the link below for more information on fees, grants and scholarships.
Total Fees Non-EU: €12000
Subject to approval by ATU Governing Body (February 2025)
Tuilleadh eolais faoi tháillíGairmeacha
Graduates work across many bio-based industries including biopharmaceutical, diagnostics, and medical devices. They gain roles as technologists, instrumentation scientists, process technicians, cell culture scientists, and protein and drug analysts.
Employability is extremely high from this degree. Graduates gain employment with companies such as Abbott Diagnostics, Allergan, Coca Cola, Charles River Laboratories, Hollister, Abbvie and Pfizer. While many enter the industry as basic grade scientists, it is noted that many gain promotion within a very short space of time.
Ireland’s life sciences sector has a global reputation for operational and innovational excellence. More than 85 pharmaceutical companies operate in Ireland. Leading industry names including Abbott, AbbVie, Janssen, Pfizer, Sanofi, GlaxoSmithKline, MSD, Bristol Myers Squibb and Takeda have significant operations here. Our students and graduates have a strong track history of securing both work placement and permanent employment with the leading companies.
Ireland is now the third largest exporter of pharmaceuticals globally, accounting for €116+ billion in exports annually. Pharmaceutical
exports jumped to almost €9bn in January 2024, up 48% from the same time in 2023. This industry accounted for 47.5% of all Irish exports across the month. With 90+ biopharma companies operating in Ireland, the demand for skilled graduates is at an all-time high.
The BSc (Hons) in Biomedical Science does not qualify graduates to work as medical laboratory scientists in a hospital lab, however graduates can work in clinical research.
Further Information
Eolas Teagmhála
T: +353 (0)71 931 8510
E: admissions.sligo@atu.ie
Life Sciences